JPH1137941A - Flue gas sampler - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a flue gas sampler in which HC in the sampled flue gas has no effect on the measurement of HCl. SOLUTION: An exhaust gas sampling line extending from a flue to a fluid modulation type non-dispersion infrared absorption analyzer is branched into a sample line for supplying a sample gas obtained by removing moisture from the exhaust gas to the non-dispersion infrared absorption analyzer, and a reference line for supplying a reference gas (comparison gas) obtained by removing moisture and HCl from the exhaust gas to the non-dispersion infrared absorption analyzer. An exhaust gas bubbler 8 for dissolving and removing HCl by passing the exhaust gas into the water can be employed as means for removing HCl. A heating section 6 for preventing condensation of moisture in the exhaust gas or opaque dehumidifiers 7, 8 can be employed as means for removing moisture in the exhaust gas.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flue gas sampling apparatus using a fluid modulation type non-dispersive infrared absorption analyzer.

[0002]

2. Description of the Related Art Conventionally, in a power plant or a refuse incineration plant, a Cl ion concentration measuring system has been used for measuring HCl in flue gas (flue gas) passing through a flue. General C
The 1-ion concentration measurement method is a method in which flue gas is passed through a solution and the concentration of Cl ions absorbed in the solution is measured.

[0003]

However, since the Cl ion concentration measurement system is performed in a batch system, there is a problem that continuous measurement is difficult.

On the other hand, HCl in flue gas exhibits the maximum infrared absorption in a wavelength band around 3 to 4 microns.
Continuous measurement (NDIR method) using a non-dispersive infrared absorption spectrometer of the fluid modulation type is not impossible. However, since sampling has problems such as dissolution in water and corrosion of metals, the method for measuring HCl in flue exhaust gas has not yet been replaced with the above-described Cl ion concentration measurement method, This is one of the reasons why the Cl ion concentration measurement method is mainly used for measuring HCl in flue gas. However, hot sampling and a method using a semi-permeable membrane dehumidifier at the probe outlet have been adopted in recent years, thereby enabling measurement by the NDIR method.

On the other hand, as shown in FIGS.
According to the NDIR method, the infrared absorption wavelength of HC and the infrared absorption wavelength of HCl appear in the same band. Therefore, when measuring HCl in flue gas by the NDIR method, the infrared absorption wavelength overlaps that of HCl. The problem is the interference effect of the HC. In other words, during normal operation of the boiler, HC is hardly contained in the combustion gas,
It has been a conventional problem that HC is generated during incomplete combustion such as when the boiler is started, and an instruction error is caused by the interference of the HC.

The present invention has been made in view of the above circumstances and problems, and an object of the present invention is to provide a flue gas sampling apparatus capable of reducing the interference effect of HC whose infrared absorption wavelength overlaps that of HCl. With the goal.

[0007]

According to the present invention, there is provided a flue gas sampling apparatus according to the present invention, wherein a flue gas sampling line from a flue to a non-dispersive infrared absorption analyzer of a fluid modulation type has a sample gas from which moisture in the flue gas has been removed. A sample line for supplying (sample gas) to the non-dispersive infrared analyzer, and a reference gas (comparative gas) from which water and HCl in the exhaust gas have been removed
And a reference line for supplying the non-dispersive infrared analyzer.

In the present invention, as a means for removing HCl in the exhaust gas at the reference line, it is effective to interpose an exhaust gas washing section for washing the exhaust gas with water and removing the HCl in the exhaust gas in the reference line. In the sample line, as a means for removing moisture in the exhaust gas, a heating unit for preventing condensation of the moisture in the exhaust gas or a dehumidifier (for example, a semi-permeable membrane dehumidifier) for removing the moisture in the exhaust gas is provided. It is effective.

In the present invention, as the reference gas,
A gas obtained by washing the flue gas discharged into the sample line with water is used. Although HCl has high solubility in water, it is completely dissolved in water by washing the exhaust gas with water. However, HC with low solubility contained in the exhaust gas does not dissolve in water. For this reason, the infrared absorption spectrum of HC is canceled from the infrared absorption spectrum of the sample gas supplied to the non-dispersive infrared absorption analyzer through the sample line, and the infrared absorption spectrum of HCl is revealed. That is, while the sample gas supplied to the non-dispersive infrared absorption analyzer through the sample line is “HCl + HC + residual gas”, the sample gas is supplied to the non-dispersive infrared absorption analyzer through the reference line. Since the reference gas is “HC + residual gas”, and HC is hardly soluble in water, HC in the sample gas and H in the reference gas are used.
Since C and C have almost the same concentration, the infrared absorption spectrum of HC is canceled from the infrared absorption spectrum of the sample gas supplied to the non-dispersive infrared absorption analyzer through the sample line as described above. , HCl are made visible.

[0010]

DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is an explanatory view showing one embodiment of a flue gas sampling device according to the present invention. This flue gas sampling apparatus has an exhaust gas sampling unit 1 installed in a flue F, and an exhaust gas sampling line 2 from the exhaust gas sampling unit 1 to a non-dispersive infrared absorption analyzer 10 of a fluid modulation type. ing. And the exhaust gas sampling line 2
It is branched into a sample line 3 and a reference line 4. Numeral 5 indicates a branch portion.

The sample line 3 is a line for supplying a sample gas from which moisture in the exhaust gas has been removed to the non-dispersive infrared spectrometer 10, whereas the reference line 4
Reference numeral denotes a line for supplying a reference gas from which moisture and HCl in the exhaust gas have been removed to the non-dispersive infrared analyzer 10.

In this embodiment, the removal of water in the exhaust gas in the sample line 3 is performed by the heating section 6 provided in the exhaust gas sampling line 2 and the sample line 3 upstream of the branch section 5 and the heating section 6. Is performed by the action of the semipermeable membrane dehumidifier 7 interposed in the sample line 3 on the downstream side of the sample line 3. That is, the heating of the exhaust gas in the heating section 6 prevents the moisture in the exhaust gas from condensing, and the semipermeable membrane dehumidifier 7
The moisture in the exhaust gas is removed by passing the exhaust gas through the exhaust gas. Therefore, the exhaust gas supplied to the non-dispersive infrared analyzer 10 through the sample line 3 is a dry gas.

In this embodiment, the removal of HCl in the exhaust gas at the reference line 4 is performed by a method of washing the exhaust gas with water and dissolving and removing the HCl in the exhaust gas. Specifically, an exhaust gas washing section 8 for guiding the exhaust gas into water and dissolving HCl in the water is interposed in the reference line 4. In addition, the exhaust gas water washing | cleaning part 8 can be comprised by using the washing bubbler of an automatic water supply system. Further, the removal of the moisture in the exhaust gas is performed by interposing a semipermeable membrane dehumidifier 9 similar to that described above in the reference line 4 downstream of the exhaust gas washing section 4. Therefore, the HCl in the exhaust gas is dissolved and removed by washing the exhaust gas in the exhaust gas washing unit 8, and the moisture in the exhaust gas is removed by passing the exhaust gas through the semipermeable membrane dehumidifier 9. Therefore, the exhaust gas supplied to the non-dispersive infrared analyzer 10 through the reference line 4 is also a dry gas.

In the non-dispersive infrared spectrometer 10 using the fluid modulation method, the sample gas supplied by the sample line 3 by the pretreatment described above is a gas from which only water is removed, that is, “HCl + HC + residual gas ( Dr
y), the reference gas supplied by the reference line 4 is a gas from which moisture and HCl in the sample gas have been removed, that is, “HC + residual gas (Dry)”. In this case, since HC is hardly soluble in water, the HC concentration in both lines is the same or almost the same. For this reason, it is possible to measure HCl without being affected by the interference of HCs whose infrared absorption wavelengths overlap.

FIG. 2 is an explanatory view showing another embodiment of the flue gas exhaust gas sampling apparatus according to the present invention. This flue gas sampling device, as described above,
It has an exhaust gas sampling section 1 installed in the flue F, and an exhaust gas sampling line 2 from the exhaust gas sampling section 1 to a non-dispersive infrared absorption analyzer 10 of a fluid modulation type. The exhaust gas sampling line 2 is branched into a sample line 3 and a reference line 4, and the sample line 3 is a line for supplying a sample gas from which moisture in the exhaust gas has been removed to the non-dispersive infrared spectrometer 10. The reference line 4 is a line for supplying the non-dispersive infrared spectrometer 10 with a reference gas from which water and HCl in the exhaust gas have been removed. In this respect, it is similar to that described with reference to FIG.

In this embodiment, the moisture in the exhaust gas is removed in the exhaust gas sampling line 2 upstream of the branch 5 between the sample line 3 and the reference line 4. The removal of water in the exhaust gas in the exhaust gas sampling line 2 on the upstream side of the branching section 5 is performed by a heating unit 6 provided in the exhaust gas sampling line 2 and a semipermeable membrane dehumidifier interposed downstream of the heating unit 6. 11 is performed. That is, condensation of moisture in the exhaust gas is prevented by heating the exhaust gas in the heating unit 6, and moisture in the exhaust gas is removed by passing the exhaust gas through the semipermeable membrane dehumidifier 11.
Therefore, the exhaust gas supplied to the non-dispersive infrared spectrometer 10 through the exhaust gas sampling line 2, the branch portion 5, and the sample line 3 is a dry gas.

HC in exhaust gas at reference line 4
The removal of l is performed by washing the exhaust gas with water and dissolving and removing HCl in the exhaust gas. Specifically, the same exhaust gas washing section (washing bubbler) 8 as that described in FIG.
Are interposed in the reference line 4. In addition, the removal of water in the exhaust gas after water washing is performed by using the above-described semi-permeable membrane dehumidifier and interposing an electronic dehumidifier C. Therefore, HCl in the exhaust gas is dissolved and removed by washing the exhaust gas with the exhaust gas washing section 8,
As the exhaust gas passes through the electronic dehumidifier C, moisture in the exhaust gas is removed. Therefore, the reference line 4
Exhaust gas supplied to the non-dispersive infrared analyzer 10 through the above is also a dry gas.

Also in this embodiment, in the same manner as described with reference to FIG. 1, in the non-dispersive infrared analyzer 10 using the fluid modulation method, the sample gas supplied by the sample line 3 is “HCl + HC + residual gas ( Dry), the reference gas supplied by the reference line 4 becomes "HC + residual gas (Dry)", and since HC is hardly dissolved in water, both lines have substantially the same concentration. Therefore, the infrared absorption wavelength H
HCl can be measured without being affected by C interference.

In the embodiment described with reference to FIG. 2, if the measured concentration of HCl in the exhaust gas is high and the interference of H ₂ O can be ignored, the electronic dehumidifier C of the reference line 4 may be omitted.

According to the embodiment described with reference to FIG. 2, heating on the reference line 4 downstream from the branching section 5 is not required.

[0021]

According to the flue gas sampling apparatus of the present invention, when measuring the HCl in the flue gas (measured by the NDIR method) using a fluid modulation type non-dispersive infrared absorption analyzer, HCl can be measured without being affected by the interference of HCs whose infrared absorption wavelengths overlap. Therefore, it is also useful as a basic technique for measuring HCl in flue gas.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram showing an embodiment of a flue gas sampling device according to the present invention.

FIG. 2 is an explanatory view showing another embodiment of the flue gas sampling device according to the present invention.

FIG. 3A is a chart showing an infrared absorption spectrum of propane (C ₃ H ₈ ). FIG. 3B is a chart showing an infrared absorption spectrum of HCl.

[Explanation of symbols]

 F Flue gas 2 Flue gas sampling line 3 Sample line 4 Reference line 7, 9, 11 Semi-permeable membrane dehumidifier (dehumidifier) 8 Flue gas washing section 10 Non-dispersive infrared absorption analyzer

Claims (3)

[Claims] An exhaust gas sampling line from a flue to a non-dispersive infrared absorption analyzer of a fluid modulation type supplies a sample gas from which moisture in exhaust gas has been removed to the non-dispersive infrared analyzer, A flue gas sampling device, wherein the flue gas sampling device is branched into a reference line for supplying a reference gas from which moisture and HCl in the exhaust gas have been removed to the non-dispersive infrared analyzer. 2. The flue gas sampling device according to claim 1, wherein an exhaust gas washing section for washing the exhaust gas with water and removing HCl in the exhaust gas is interposed in the reference line. 3. The flue gas sampling apparatus according to claim 1, further comprising a dehumidifier for removing moisture in the exhaust gas.